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For WireGuard (like for all IP-tunnels and IP-based VPNs), the IP addresses of the peers must be reached outside the tunnel/VPN itself. For VPN connections, NetworkManager usually adds a direct /32 route to the external VPN gateway to the underlying device. For WireGuard that is not done, because injecting a route to another device is ugly and error prone. Worse: WireGuard with automatic roaming and multiple peers makes this more complicated. This is commonly a problem when setting the default-route via the VPN, but there are also other subtle setups where special care must be taken to prevent such routing loops. WireGuard's wg-quick provides a simple, automatic solution by adding two policy routing rules and relying on the WireGuard packets having a fwmark set (see [1]). Let's also do that. Add new properties "wireguard.ip4-auto-default-route" and "wireguard.ip6-auto-default-route" to enable/disable this. Note that the default value lets NetworkManager automatically choose whether to enable it (depending on whether there are any peers that have a default route). This means, common scenarios should now work well without additional configuration. Note that this is also a change in behavior and upon package upgrade NetworkManager may start adding policy routes (if there are peers that have a default-route). This is a change in behavior, as the user already clearly had this setup working and configured some working solution already. The new automatism picks the rule priority automatically and adds the default-route to the routing table that has the same number as the fwmark. If any of this is unsuitable, then the user is free to disable this automatism. Note that since 1.18.0 NetworkManager supports policy routing (*). That means, what this automatism does can be also achieved via explicit configuration of the profile, which gives the user more flexibility to adjust all parameters explicitly). (*) but only since 1.20.0 NetworkManager supports the "suppress_prefixlength" rule attribute, which makes it impossible to configure exactly this rule-based solution with 1.18.0 NetworkManager. [1] https://www.wireguard.com/netns/#improved-rule-based-routing |
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****************** NetworkManager core daemon has moved to gitlab.freedesktop.org! git clone https://gitlab.freedesktop.org/NetworkManager/NetworkManager.git ****************** Networking that Just Works -------------------------- NetworkManager attempts to keep an active network connection available at all times. The point of NetworkManager is to make networking configuration and setup as painless and automatic as possible. NetworkManager is intended to replace default route, replace other routes, set IP addresses, and in general configure networking as NM sees fit (with the possibility of manual override as necessary). In effect, the goal of NetworkManager is to make networking Just Work with a minimum of user hassle, but still allow customization and a high level of manual network control. If you have special needs, we'd like to hear about them, but understand that NetworkManager is not intended for every use-case. NetworkManager will attempt to keep every network device in the system up and active, as long as the device is available for use (has a cable plugged in, the killswitch isn't turned on, etc). Network connections can be set to 'autoconnect', meaning that NetworkManager will make that connection active whenever it and the hardware is available. "Settings services" store lists of user- or administrator-defined "connections", which contain all the settings and parameters required to connect to a specific network. NetworkManager will _never_ activate a connection that is not in this list, or that the user has not directed NetworkManager to connect to. How it works: The NetworkManager daemon runs as a privileged service (since it must access and control hardware), but provides a D-Bus interface on the system bus to allow for fine-grained control of networking. NetworkManager does not store connections or settings, it is only the mechanism by which those connections are selected and activated. To store pre-defined network connections, two separate services, the "system settings service" and the "user settings service" store connection information and provide these to NetworkManager, also via D-Bus. Each settings service can determine how and where it persistently stores the connection information; for example, the GNOME applet stores its configuration in GConf, and the system settings service stores its config in distro-specific formats, or in a distro- agnostic format, depending on user/administrator preference. A variety of other system services are used by NetworkManager to provide network functionality: wpa_supplicant for wireless connections and 802.1x wired connections, pppd for PPP and mobile broadband connections, DHCP clients for dynamic IP addressing, dnsmasq for proxy nameserver and DHCP server functionality for internet connection sharing, and avahi-autoipd for IPv4 link-local addresses. Most communication with these daemons occurs, again, via D-Bus. Why doesn't my network Just Work? Driver problems are the #1 cause of why NetworkManager sometimes fails to connect to wireless networks. Often, the driver simply doesn't behave in a consistent manner, or is just plain buggy. NetworkManager supports _only_ those drivers that are shipped with the upstream Linux kernel, because only those drivers can be easily fixed and debugged. ndiswrapper, vendor binary drivers, or other out-of-tree drivers may or may not work well with NetworkManager, precisely because they have not been vetted and improved by the open-source community, and because problems in these drivers usually cannot be fixed. Sometimes, command-line tools like 'iwconfig' will work, but NetworkManager will fail. This is again often due to buggy drivers, because these drivers simply aren't expecting the dynamic requests that NetworkManager and wpa_supplicant make. Driver bugs should be filed in the bug tracker of the distribution being run, since often distributions customize their kernel and drivers. Sometimes, it really is NetworkManager's fault. If you think that's the case, please file a bug at: https://gitlab.freedesktop.org/NetworkManager/NetworkManager/issues Attaching NetworkManager debug logs from the journal (or wherever your distribution directs syslog's 'daemon' facility output, as /var/log/messages or /var/log/daemon.log) is often very helpful, and (if you can get) a working wpa_supplicant config file helps enormously. See the logging section of file contrib/fedora/rpm/NetworkManager.conf for how to enable debug logging in NetworkManager.